Building panel

ABSTRACT

Laminated building-panel consisting of a core and core-joined outside lining, which characteristic feature is determined by flow-pipes location under laminated-plate lining ( 3 ). Pipes ( 2 ) are included into the heat system with the help of headers, supplied to exchangers and directed to the system of rooms heating and thus any heat management can be applied using free-of-charge solar energy.

The subject of invention is building panel of laminated structure to be applied as wall/roof lining element.

Laminated panels, as everybody knows, can be applied as wall and roof elements for building linings. Known laminated panels consist of insulating core of foamed polystyrene, polyurethane or of mineral wool and two steel sheet layers or other lining. The linings are of various types and are made of various materials depending on designation. A plastic material of high resistance to chemical or biological agents impact can be applied as lining and, as such, can be applied for the construction of food industry facilities including facilities of requirements pertaining to resistance in various aggressive environments such as freezing cold stores and warehouses for goods not resistant for environment temperature variations such as foodstuffs.

Similarly, laminated panels including stainless steel or aluminium sheet lining are applied for the purposes as described herein above.

Problems resulting from thermal expansion of laminated metal-sheet linings occur in the case of industrial-facilities walls and roofs of laminated panels. Sunny-days sheets-temperatures of southern-walls can reach even 800 C. At the same time, combustion energy of—for instance—gas, coal, wood and other combustible material, particularly gas, and electric power is consumed in order to heat up warm water to be used inside building offices or production rooms.

Conclusions resulting from observation and analysis of such situation ended in the designing of building panel on the grounds of laminated panel structure making possible to use and control heat energy, which, as mentioned above, accumulates in wall and roof panels and is not used but produces also disadvantageous effects in the result of panel lining expansion.

Plate according to the invention is distinguished with flow pipes under laminated plate lining. According to one form of invention execution, flow-pipes are situated at the both side of panel.

According to other form of invention execution, flow-pipes are situated at the both side of panel.

According to next other form of invention execution, flow-pipes have a section of their length situated inside laminated panel core and pipe ends brought outside.

According to special form of invention execution flow-pipes can be made in the form of coil pipe, which is open from both ends. The coil pipe can be created with the help of couplings applied in order to connect flow-pipes ends.

The invention is presented in the form of examples on figures where

FIG. 1 presents wall panel with flow-pipe from one side,

FIG. 2 presents similar wall panel with flow-pipes at both sides,

FIG. 3 presents outside view of the panel according to FIG. 2 of other lining form and which is to be used as roof panel,

FIG. 4 presents roof panel according to FIG. 4 with flow-pipes at both sides.

Thus, according to the invention the panel consists of core 1, flow-pipes 2 and lining 3.

Flow-pipes 2 according to one possible invention-implementation form are arranged on one core surface 1.

Flow-pipes 2 according to other possible invention-implementation form are arranged on both core 1 surfaces.

Flow-pipes 2 according to next another possible invention-implementation form have a section of their length situated inside core 1 and pipe ends are brought outside core 1. These pipes can be variously shaped, for instance in the form of “U” letter inside core 1.

Flow-pipes 2 are filled with liquid medium, which is collected in a header and transferred further to heat sinks and/or exchangers. Pipe ends could be interconnected as wished with the help of elbows, couplings, branches, etc.

In this way ends of particular pipes 2 can be interconnected to form accumulation system of solar energy originating heat as well as to join these systems from particular panels into one or several systems of higher heat capacity. Thus, effect of panels according to the invention consist in the fact that heat of solar energy origin, that heats building walls of such panels structure, is collected in headers and further in heat exchangers or sinks and can be used for any purposes. Application of panels according to the invention at construction provides various heat effects simultaneously and, particularly, temperature reduction inside buildings in the conditions of insolotion, which makes possible to limit application of energy-consuming air condition systems or to limit its necessary power supply.

Collected heat of sun-heated building walls and/or roof origin can be transferred to be used in such applications as to heat glass houses or other areas where maintaining higher temperature is required. Inverse procedure can be also applied and building walls can be heated in the way of passing heated media through walls, which procedure may be sometimes advisable taking into account energy balance of building heating. As it is known, the highest heat radiation is by large building walls in the conditions of lower temperatures.

In order to meet these purposes, pipes 2 are included into the heat system with the help of headers, supplied to exchangers and directed to the system of rooms heating and thus any heat management can be applied using free-of-charge solar energy. 

1. Laminated building-panel consisting of a core and core-joined outside lining, which characteristic feature is determined by flow-pipes location under laminated-plate lining (3).
 2. Panel according to claim 1, which characteristic feature is determined by pipes (2) with ends that protrude outside the panel.
 3. Panel according to claim 1, which characteristic feature is determined by pipes (2) arranged at one side of panel core (1).
 4. Panel according to claim 1, which characteristic feature is determined by pipes (2) arranged at both sides of panel (1) core.
 5. Panel according to claim 1, which characteristic feature is determined by flow-pipes (2) having a section of their length situated inside laminated panel core (1) and pipe (2) ends are brought outside.
 6. Panel according to claim 1 which characteristic feature is determined by flow-pipes (2) in the form of coil pipe, which is open from both ends.
 7. Panel according to claim 6, which characteristic feature is determined by coil pipe made with the help of couplings to connect flow-pipes ends and particularly with application of “U”-letter-shaped couplings.
 8. Panel according to claim 2, which characteristic feature is determined by pipes (2) arranged at one side of panel core (1).
 9. Panel according to claim 2, which characteristic feature is determined by flow-pipes (2) having a section of their length situated inside laminated panel core (1) and pipe (2) ends are brought outside.
 10. Panel according to claim 2, which characteristic feature is determined by flow-pipes (2) in the form of coil pipe, which is open from both ends.
 11. Panel according to claim 3, which characteristic feature is determined by flow-pipes (2) in the form of coil pipe, which is open from both ends.
 12. Panel according to claim 5, which characteristic feature is determined by flow-pipes (2) in the form of coil pipe, which is open from both ends.
 13. Panel according to claim 10, which characteristic feature is determined by coil pipe made with the help of couplings to connect flow-pipes ends and particularly with application of “U”-letter-shaped couplings.
 14. Panel according to claim 11, which characteristic feature is determined by coil pipe made with the help of couplings to connect flow-pipes ends and particularly with application of “U”-letter-shaped couplings.
 15. Panel according to claim 12, which characteristic feature is determined by coil pipe made with the help of couplings to connect flow-pipes ends and particularly with application of “U”-letter-shaped couplings. 